Handguard Structure For Movable Scooter

ABSTRACT

Disclosed is a handguard structure for a movable scooter. A main body of the scooter is a plate-like body, which has a bottom to which wheels are mounted. A grip is provided on each of left and right sides of the main body. A number of engagement lugs is formed on a front side of the main body and engagement grooves corresponding in number to and respectively engageable with the engagement lugs are formed in a rear side of the main body so that through engagement between the engagement lugs and the engagement grooves, a plurality of main bodies is connectable in cascade to form a scooter in a long line. The grip includes an outer bar mounted to and spaced from the left or right side of the main body to define a shielded space and an inner bar arranged in the shielded space and fixed to the main body.

TECHNICAL FIELD OF THE INVENTION

The present invention relates a carrier for freight transportation or amusement ride, and more particularly to a handguard structure for a movable scooter, capable of protecting a user's hands from being injured while moving the scooter.

DESCRIPTION OF THE PRIOR ART

The structures of two representative conventional combination-type movable scooters are shown in FIGS. 1 and 2. A plurality of wheels 20 are configured on the bottom of the scooter, and a grip is respectively formed on the left and right sides thereof. Furthermore, a plurality of engagement projections are configured on the front side face of the scooter, and a plurality of engagement grooves the relative positions at the rear side face, allowing a plurality of single scooters to be coupled together to form a scooter type in a long line by inserting the engagement projections in the corresponding engagement grooves, which can be moved as one's will. This scooter line is used to not only mount freights but allow people to sit thereon for recreational sports; this kind of scooter provides a convenient and practical tool for heavy freight transportation, being a practical and interesting recreational implement, but it has a disadvantage in structure found upon use. When a user moves a scooter upon freight transportation or amusement ride by hands, as FIG. 1 shows, the both hands grasp the respective side frame bars of the grips, and in the meantime the backs of the hands are exposed outside the grips. If there is something wrong, the hands hit a wall or other rigid objects easily, causing the hands to be injured.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a handguard structure for a movable scooter, in which a longitudinal or transverse inner bar is configured inside each frame-typed grip of the main body thereof, allowing the hands of a user to grasp the inner bars and position inside the grips to protect the hands from being injured by hitting a wall or other rigid objects to when a user moves the scooter by hands upon freight transportation or amusement ride.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematically perspective view of a conventional movable scooter showing a state of a human's hands grasping the grips thereof;

FIG. 2 is a schematically perspective view of another conventional movable scooter showing a state of a human's hands grasping the grips thereof;

FIG. 3 is a schematically perspective view of a movable scooter of the present invention;

FIG. 4 is a bottom view of a preferred embodiment of the movable scooter of the present invention;

FIG. 5 is a schematically perspective view of the movable scooter arranged in series of the present invention in a use state;

FIG. 6 is a schematically perspective view of another preferred embodiment of a movable scooter of the present invention; and FIGS. 7 and 8 are schematically perspective views of other preferred embodiments of a movable scooter of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention is a handguard structure for a movable scooter, being a single plate body with wheels on the bottom thereof, where a plurality of scooters can be coupled together to form a combined scooter form which can be moved as one's will. Referring to FIGS. 3 and 4, a frame-typed grip 13 is respectively configured on the left and right sides of a single main body 10, two or more projecting engagement convex lugs 11 are formed on the front side of the main body 10, and engagement grooves 12 with a shape and dimension being the same as the engagement lug are configured on the positions of the rear side face of the main body 10 relative to the engagement lugs 11, where both the engagement lug 11 and the engagement groove 11 may be a T-shaped body. Furthermore, the engagement lugs 11 of the main 10 being inserted in the corresponding engagement grooves 12 of the other main body 10 can assemble a plurality of single main bodies together to form a movable scooter as FIG. 5 shows. The present invention is characterized in that a longitudinal inner bar 14 is configured between the left and rear bar bodies of each frame-typed grip 13 and located at the center thereof, allowing a user's hands to grasp the inner bars 14 and position inside the grips 13 to protect the hands from being injured by hitting a wall or other rigid objects while moving the scooter upon freight transportation or amusement ride.

Referring to FIG. 6, which is another preferred embodiment of a handguard structure for a movable scooter according to the present invention, a frame-typed grip 13 is respectively configured on left and right sides of a single main body 10, and a transverse inner bar 14 is configured between one side of the main body 10 and outer bar body of each grip 13 and located at the center of the frame-typed grip 13, allowing a user's hands to grasp the inner bar 14 and position inside the grip 13 to protect the hands from being injured by hitting a wall or other rigid objects while moving the scooter upon freight transportation or amusement ride.

FIGS. 7 and 8 illustrate other preferred embodiments of a handguard structure for a movable scooter according to the present invention. A through hole 15 may be respectively opened on the left and right sides of the main body 10 of the scooter, and a longitudinal inner bar 14 is configured between the front and rear sides of each through groove 15 and located at the center thereof as FIG. 7 shows, or, a transverse inner bar 14 is configured between the left and right sides of each through groove 15 and located at the center thereof as FIG. 8 shows. 

1. A cam-type oil-free automatic door closer, installed between a fixed object and door, comprising a first device and second device, wherein said first device comprises a propping rod and said second device is configured with a cam, said propping rod is subject to an acting force of an elastic element ordinarily to press against a working curve of said cam elastically, allowing said propping rod of said first device to be slid along said working curve of said cam relatively to compress said elastic element upon a door opening operation.
 2. The door closer according to claim 1, wherein said cam is fixed in said second device, said cam is static relatively to said second device, and said propping rod is slid along said working curve of said cam to force said propping rod to move axially through said working curve of said cam so as to store energy in said elastic element upon a door opening operation.
 3. The door closer according to claim 1, wherein said cam is coupled pivotally to an inside of said second device, allowing said cam to be turned around an axle center thereof to force said propping rod to move through said working curve of said cam to push said propping rod axially and store energy in said elastic element upon a door opening operation.
 4. The door closer according to claim 1, wherein a front section of said propping rod is configured with a linkage portion in a radial direction, and said propping rod is acted by said elastic element, allowing said linkage portion to be pressed against said working curve of said cam elastically.
 5. The door closer according to claim 1, wherein a top end of said propping rod is pressed against said working curve of said cam.
 6. The door closer according to claim 1, wherein said first device comprises a pair of clamping components clamped on a door, said pair of clamping components comprise a first clamping component clamped on a first side of said door, and a second clamping component attached to a second side of said door, wherein said first and second clamping components are coupled to each other through screws to clamp said door between said first and second clamping components.
 7. The door closer according to claim 1, wherein at least one positioning portion is configure on said working curve of said cam, allowing said propping rod to be engaged with said corresponding positioning portion, thereby positioning an opened door holding angle of a door temporarily after said door is opened said angle.
 8. The door closer according to claim 1, wherein said second device is installed on a door, said cam is coupled pivotally to an inside of said second device, said cam comprises a linkage shaft engaged with a spatial linkage, and one end of said spatial linkage is coupled pivotally to a fixed object, allowing said spatial linkage to drive said cam to turn to push said propping rod through said working curve of said cam upon a door opening or closing operation.
 9. The door closer according to claim 1, wherein said first device comprises a first main body, an outer edge thereof is connected fixedly to at least one fixing seat, said first main body is configured with a sliding hole; a propping rod is configured movably in said sliding hole of said first main body, and a linkage portion is configured on said propping rod; an elastic element is installed in said first main body, and adapted to press against said propping rod ordinarily, allowing a front section of said propping rod to be extended out of said first main body ordinarily.
 10. The door closer according to claim 9, wherein said first main body is configured with an adjustable screw, allowing a tip of said adjustable screw to be compressed against one end of said elastic element.
 11. The door closer according to claim 1, wherein said cam is indented with a positioning shaft hole, a positioning component is engaged with said positioning shaft hole, a wall of said positioning shaft hole is indented with a plurality of positioning holes, said positioning component is engaged elastically with a positioning pin adapted to press against said wall of said positioning shaft hole constantly through a spring, and said positioning component is linked to said first device to turn in said positioning shaft hole. 